Exploring design tradeoffs in analog IC placement with current-flow & current-density considerations

2015 International Conference on Synthesis, Modeling, Analysis and Simulation Methods and Applications to Circuit Design (SMACD) Pub Date : 2015-10-26 DOI:10.1109/SMACD.2015.7301697

R. Martins, R. Póvoa, N. Lourenço, N. Horta

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引用次数: 3

Abstract

In this paper, the concept of hierarchical multi-objective optimization (MOO) is applied to analog integrated circuit (IC) placement automation, where current-flow and current-density considerations are taken to improve the reliability and, reduce the routing-induced parasitics of the circuit post-layout. The current-flow constraints are satisfied by forcing a monotonic routing directly in an absolute placement representation, while the impact of current-intensive interconnects is mitigated with the electromigration (EM)-aware optimization of the wiring topology (WT) for all nets of the circuit. The problem's complexity is reduced using the hierarchy in the circuit's partitions, combining, bottom-up, Pareto optimal fronts (POFs) of placements that explore the tradeoffs between the design objectives. The approach is demonstrated with post-layout results in an analog circuit structure for the UMC 130nm design process.

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探索在电流和电流密度的考虑下模拟IC放置的设计权衡

本文将分层多目标优化(MOO)的概念应用于模拟集成电路(IC)布局自动化中，考虑了电流和电流密度，以提高可靠性，减少电路布局后的路由寄生。电流约束通过在绝对位置表示中直接强制单调路由来满足，而电流密集互连的影响通过对电路所有网络的布线拓扑(WT)的电迁移(EM)感知优化来减轻。使用电路分区中的层次结构，结合自下而上的帕累托最优前沿(pof)，探索设计目标之间的权衡，降低了问题的复杂性。该方法在UMC 130纳米设计工艺的模拟电路结构中进行了后布局结果的验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 International Conference on Synthesis, Modeling, Analysis and Simulation Methods and Applications to Circuit Design (SMACD)

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